Gun Type Ionizer (Rated voltage 125 V, Plug JIS C 8303, Inlet IEC 60320-C13) *1 Measured with a high pressure probe of 1000 M and 5 pF *2 Measurement value based on a charged plate (Dimensions: 150 mm x 150 mm, Capacitance: 20 pF) as defined in the U.S.
Screw lead LC1-1(Either T-nuts or T-brackets for mounting) LC1-1-1000 (Controller connector) LC1-1-2000 (Controller connector) (Refer to page 85.) F H L 6mm 10mm 20mm Note) The following options are necessary for operating and setting the controller.
Example) FGFS1A-20-B-X81, FGFS3B-40X81 Specifications FGFA FGFB Coolant (oil-based, water-soluble), Weak alkali-based cleaning fluid, Industrial water 500 to 1000 m Max. 80C Max. 400 L/min Differential pressure 0.1 MPa Vinylidene chloride 190 x L440 1800 cm2 190 x L770 3400 cm2 Applicable model Main applicable fluid Note 3) Sub-element/Ring Part No.
Water bath Q = T x V x x C h x 60 x 1000 10 x 2 x 1 x 103 x 4.2 x 103 20C V = 15 x 60 x 1000 After 15 min, = 93.3 W cool 30C down to 20C.
Specifications Operating Parameters Gas Operating pressure Proof pressure Burst pressure Ambient and operating temperature Cv AP4625 AP4650 AP4657 AP4600 Select compatible materials of construction for the gas Vacuum to 250 psig (1.7 MPa) 1000 psig (6.9 MPa) 8000 psig (55.2 MPa) 40 to 160F (40 to 71C) (No freezing) 1) 0.5 2 x 10-11 Pam3/sec 2 x 10-10 Pam3/sec 2) 4 x 10-9 Pam3/sec 2) Ra max
Low Voltage Directive This directive is applied to products, which operate above 50 VAC to 1000 VAC and 75 VDC to 1500 VDC operating voltage, and require electrical safety measures to be introduced. Simple Pressure Vessels Directive This directive is applied to welded vessels whose maximum operating pressure (PS) and volume of vessel (V) exceed 50 bar/L.
V (mm/s) = Auto switch operation range (mm) Load operating time (ms) x 1000 In cases of high piston speed, the use of an auto switch (D-F5NT, F7NT, G5NT and M5T) with a built-in OFF delay timer (approx. 200ms) makes it possible to extend the load operating time. 4. Wiring should be kept as short as possible.
mm/s 20 to 63 Piston speed 50 to 700 mm/s 80, 100 CX Thread tolerance JIS Class 2 st + 1.4 0 st + 1.5 0 st + 1.4 0 st + 1.5 0 Up to 1000 mm, Up to 1200 mm 20 to 63 CY Stroke length tolerance Up to 1000 mm, Up to 1500 mm 80, 100 Basic style, Axial foot style, Rod side flange style, Head side flange style, Clevis integrated style MQQ M JIS Symbol Double acting, Single rod Mounting RHC Standard
Arm length L A Arm length L A Table 1 Table 1 A Model A Model CKZ3N50 CKZ3N63 CKZ3T50 CKZ3T63 5 10 Series CKZ3N Series CKZ3T 10 10 50 63 Arm length L: 150 mm Arm length L: 200 mm 3000 3000 Peak clamping force position 2500 2500 Peak clamping force position 0.7 MPa 2000 2000 Clamping force (N) Clamping force (N) 0.5 MPa 0.7 MPa 1500 1500 1000 1000 0.5 MPa 0.3 MPa 0.3 MPa 500 500 0 0 0 0.5
V (mm/s) = Auto switch operation range (mm) Load operating time (ms) x 1000 In cases of high piston speed, the use of an auto switch (D-F5NT, F7NT, G5NT and M5T) with a built-in OFF delay timer (approx. 200ms) makes it possible to extend the load operating time. 4. Wiring should be kept as short as possible.
V (mm/s) = Auto switch operation range (mm) Load operating time (ms) x 1000 In cases of high piston speed, the use of an auto switch (D-F5NT, F7NT, G5NT and M5T) with a built-in OFF delay timer (approx. 200ms) makes it possible to extend the load operating time. 4. Wiring should be kept as short as possible.
V (mm/s) = Auto switch operation range (mm) Load operating time (ms) x 1000 In cases of high piston speed, the use of an auto switch (D-F5NT, F7NT, G5NT and M5T) with a built-in OFF delay timer (approx. 200ms) makes it possible to extend the load operating time. 4. Wiring should be kept as short as possible.
V (mm/s) = Auto switch operation range (mm) Load operating time (ms) x 1000 In cases of high piston speed, the use of an auto switch (D-F5NT, F7NT, G5NT and M5T) with a built-in OFF delay timer (approx. 200ms) makes it possible to extend the load operating time. 4. Wiring should be kept as short as possible.
Auto Switch Common Specifications Solid state switch Type Reed switch 3-wire: 100 A or less 2-wire: 0.8 mA or less Leakage current None Operating time 1 ms or less 1.2 ms 1000 m/s2 300 m/s2 Impact resistance 50 M or more at 500 VDC Mega (between lead wire and case) Insulation resistance 1000 VAC for 1 minute 1500 VAC for 1 minute Withstand voltage (between lead wire and case) (between lead
Lead wire length 0 1 2 0.6 m 1.5 m 3.0 m Electrical characteristics Item Characteristic Sheath Colour: Urban white Conductor resistance /km, 20C 65 or less Withstand pressure V, 1 minute, AC 1000 Polarity Terminal no. Lead wire colour Dot marking Insulation resistance M/km, 20C 5 or more 1 () (+) Black None SOL. A 14 () (+) Yellow Black Station 1 SOL.
Refer to the below special wiring specifications (option). 65 or less Voltage limit V, 1 minute, AC 1000 Insulation resistance M/km, 20C 5 or more Note) Cannot be used for transfer wiring. The minimum bending radius of the cable is 20 mm. Sheath Color: White Terminal no.
25 200 400 600 800 1000 1200 1400 Flow rate Q [kg/h] ( ): Saturated steam holding heat (kcal/kg) ( ): Saturation temperature (C) For Water How to read the graph The pressure differential to generate a flow rate of 25 L/min water is as follows.
Assuming that the tube I.D. is 2 mm, the piping capacity is as follows: V = p/4 x D2 x L x 1/1000 = p/4 x 22 x 1 x 1/1000 = 0.0031 L (2) Assuming that leakage (QL) during adsorption is 0, find the average suction flow rate to meet the adsorption response time using the formula on page 392.
Assuming that the tube I.D. is 2 mm, the piping capacity is as follows: V = P/4 x D2 x L x 1/1000 = P/4 x 22 x 1 x 1/1000 = 0.0031 L (2) Assuming that leakage (QL) during adsorption is 0, find the average suction flow rate to meet the adsorption response time using the formula on the front matter 8.
Assuming that the tube I.D. is 2 mm, the piping capacity is as follows: V = P/4 x D2 x L x 1/1000 = P/4 x 22 x 1 x 1/1000 = 0.0031 L (2) Assuming that leakage (QL) during adsorption is 0, find the average suction flow rate to meet the adsorption response time using the formula on the front matter 8.